The present invention relates to micro-systems and methods for production of biopolymer-based droplets and particles. These particles can be used for encapsulation of biochemical, biological and/or therapeutic compounds. The encapsulated molecules can be released from particles into surrounding fluid over time and therefore potentially can be used as vesicles for drug transport and release. ˙

The proposed low correlated colour temperature phosphor converted LED is characterized by a small non-visual photobiological action to humans, which manifests itself as the suppression of melatonin secretion in the pineal gland, and can be used for the illumination of streets, car parking lots, pedestrian and bicycle tracks, building facades, monuments, parks and house yards that only slightly disrupts the circadian rhythm of humans. The LED has a semiconductor chip that emits short wavelength light in the blue, violet or near UV region due to the injection electroluminescence and a wavelength converter which converts the said short wavelength light due to photoluminescence to longer wavelength light having an orange component with the spectrum peaking in the range of about from 570 nm to 600 nm. In the case of partial conversion LED, the chip generates blue light that is partially converted to orange light by one phosphor (for instance, yttrium magnesium aluminium silicon garnet activated by trivalent cerium ions (Y3Mg2AISi2012:Ce3+), barium strontium silicon nitride activated by divalent europium ions ((Ba,Sr)2Si5N8:Eu2+), barium strontium orthosilicate, activated by divalent europium ions ((Ba,Sr)SiO4:Eu2+), calcium - alpha silicon aluminium oxynitride, activated by divalent europium ions (Ca-α-SiAlON:Eu2+), or calcium strontium selenide, activated by divalent europium ions ((Ca,Sr)Se:Eu2+)) contained in the converter. In the case of complete conversion LED, the chip generates near UV light that is completely absorbed in the converter and converted by a blue phosphor (for instance, CaMgSi2O6:Eu2+, Ba5SiO4Cl6:Eu2+, Mg3Ca3(PO4)4:Eu2+, (Ca,Sr,Ba)5(PO4)3CI :Eu2+, Ca2B5O9(Br,Cl):Eu2+, BaMgAl10O17:Eu2+,Mn2+, BaMg2Al16O27:Eu2+, (Lu,Gd)2SiO5:Ce3+, Sr2P2O7:Sn2+, SrSiAI2O3N2:Ce3+ or La3Si6N11 :Ce3+) and the orange phosphors mentioned above.

The invention is attributed to the devices. In order to simplify the design of the device, to reduce power consumption and to extend its functionality the device comprising the contact element (1) interacting with currently diagnosed surface (2), the frame (3) equipped with piezoceramic element (4) with electrodes, the high-frequency generator (5) and the control unit (6), in addition the device is equipped with an electric signal filter (7) and a comparator (11), and the piezoceramic element (4) is plate-shaped, which one side has a continuous electrode (8) and the other side of the electrode (9) is divided into two parts, to one of which is connected the high-frequency generator (5) through the control unit (6) and to the other - electric filter (7) which is connected to the control unit (6) through the comparator (11); and in addition - to the piezoceramic element (4) plate edge rigidly fixed contact element (1), which is clamped by the spring (10) to the moveable surface (2) together with the piezoceramic element. ˙

4.
WO/2015/047062FUSED PROTEINS OF GRANULOCYTE COLONY-STIMULATING FACTOR WITH OTHER PARTNERS OF GROWTH FACTOR, PREFERABLY WITH STEM CELL FACTOR, AND METHOD OF PREPARATION THEREOF

Abstract Invention is disclosing method for preparation and biological properties of fused proteins, mainly heterodimer of granulocyte colony-stimulating factor and stem cell factor. Multimer constructions according to this invention may be used in therapy, since are characterized by synergy of in vivo functioning and extended circulation half-life in comparison to each separate protein monomer.

The invention is attributed to the field of bulk food drying machinery, and may be used in drying facilities of bee bread and pollen pellets, as well as a variety of agricultural products, such as various fruits, vegetables, and mushrooms. To simplify the design, to reduce drying energy costs and improve product quality of the drying cabinet consisting of the drying chamber (1) with the door (2) and perforated drawers (3) inside, the heating element (9), the fan (8) and the ductwork (4), the collection manifold (18) and the distribution manifold (19) are mounted near the front and the rear wall of the drying chamber (1), a slot type partition (20) with gradually decreasing slots mounted across the entire length of the perforated drawer (3), and the horizontal partition (5) on the bottom of the drawer with a filter (6) attached to it at a right angle and the fresh air inlet (11) and wet air exhaust vent (14) mounted on the bottom lower part of the drying chamber with the connected discharge channel (17), which are separated by the air flow separation edge (10) and with the fan (8) fitted next to them, which at one end is attached to the back of the lower drying chamber wall, and on the other end to the horizontal partition (7) separating the perforated drawers (3) from the fan (8) and connected to the heater (9). Also, the fresh air inlet (11) and the wet air exhaust (14) vents of the drying chamber of bulk food products, including ambrosia and the pollen pellets, are arranged symmetrically and are perpendicular to the rear lower wall of the drying chamber (1) and the rotation direction of the fan 8, and one of the edges of the horizontal partition (7) has an edge that is perpendicular to the direction of fresh air flow.

The invention relates to the field of heating technology. The aim of the invention is to improve the operating efficiency of a boiler, and specifically the heating and power-generating characteristics thereof, and also to reduce emissions of harmful gases into the atmosphere during the operating process of the boiler. The patent describes a domestic boiler of novel design, which operates on solid fuel of variable moisture content and consists of a metallic housing, a furnace, a combustion chamber, a heat exchanger, a burner with openings for feeding in heated and cold air, the burner being mounted at the transition from the furnace to the combustion chamber, an ash bin and a smoke flue. The novelty consists in that the burner, with a length from the wall of the combustion chamber to the centre thereof, is mounted horizontally in the lower part of the combustion chamber above a furnace grate, and the ash bin is equipped with a baffle plate mounted perpendicularly to the lower surface of the ash bin for restricting the entry of air into the combustion chamber from below via the furnace grate. The baffle plate is mounted movably along the length of the ash bin in order to control the pyrolysis area above the furnace grate depending on the type of fuel, and the particle distribution and moisture content thereof. The features mentioned enable the boiler to switch rapidly to pyrolysis mode, while also improving fuel consumption efficiency and reducing emissions into the atmosphere.

The invention relates to thermal engineering, in particular to devices for heating air entering a burner. The aim of the invention is to ensure the combustion of a combustible gas mixture at high temperature and thus efficiently elevate the temperature of released heat. The device for heating air entering a burner is installed in a combustion chamber (2) of a solid fuel boiler (1), which also has a burner (3). The device is composed of a spatial channel grating (4) with horizontal channels (5) some ends of which are connected to an ambient air intake channel (6) and the other ends of which are connected to a channel (7) for air entry into the burner (3).˙

The invention is referred to agriculture, beekeeping branch and definitely can be applied in production of bee bread threshing machines. For the purpose of creation of safe and non-complex bee bread threshing machine, allow to increase the output and improve in quality of bee bread granules, the disk-type bee bread threshing machine consists of a body (1) with raw material loading (2) and escape (3) holes, electric motor (4) installed inside, disk form crusher (6) fastened to the vertical shaft (5) equipped with two or more vanes (7), formed of the same disk material and directed to the loading hole (2) side. If required there can be two and more vanes (7). The vanes are tilted at 0-30 degree angle from perpendicular position to the disk opposite to the rotation direction and sharp edges are rolled.˙

The invention is related to the field of sewage sludge recovery- recycling. A metal vessel (1) is designated for loading sewage sludge, while a screw conveyor (4) is mounted for delivering it to an incineration boiler (3) in the first combustion chamber (2). A collector (9) is designated for collecting produced biogas and is connected to a supply line that supplies biogas as fuel to an internal combustion engine connected to an electricity generator (10). For the combustion of the evolved combustible gas, the main gas burner (11) is installed in the second combustion chamber (6) and an additional plasma- gas burner (13) connected with a plasma source and gas tank (14) is mounted. The combustion air is preheated.

The invention relates to bicycle machinery and is assigned to additional electric bicycle gears when the bicycle is additionally powered by the roller of the electric drive mechanism, pressed to the bicycle wheel tire. The drive consists of the housing (1), the mounting unit (2), the drive mechanism (4), the suppression unit (3) and the additionally built-in battery (10), and the electronics unit (9). The drive mechanism (4) consists of the electric motor (14) with the external rotor (15), the drive roller (18) and the cylindrical enclosure (17), inside of which the outer rotor (15) is rigidly mounted and the drive roller(18) is mounted on the outside. The drive mechanism (4) is mounted within the cylindrical enclosure (17) with rolling bearings in the retainer (6) of the drive mechanism (4). The mounting unit (2) consists of the connecting (19) and the clamping (20) parts interconnected with the hinge (21), and the lock unit (22). The holder (5) of the mounting unit (2) has the axis (23) on which the connecting part (19) of the mounting unit (2) is assembled. The lock unit (22) consists of the sleeve (24) with a screw hole perpendicular to the axis of the cylinder, and the screw (25) with the hinge for the attachment of the handle (26). The clamping unit (3) is designed as a gas spring (7) with the ends attached by hinges to the connecting part (19) of the mounting unit (2) and the housing (1). ˙

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